Communication apparatus, method of controlling the same, and storage medium

ABSTRACT

A communication apparatus has an auto-complete function using an LDAP protocol. The apparatus inputs character information, and verifies a certificate of an LDAP server. The apparatus obtains, by the LDAP protocol, address information including the character information input by the input unit after verifying the certificate of the LDAP server.

BACKGROUND OF THE INVENTION

Field of the Invention

The present invention relates to a communication apparatus having anauto-complete function, a method of controlling the same, and a storagemedium.

Description of the Related Art

There are three approaches for specifying a destination address in atransmission of a mail, or the like, in conventional communicationsapparatuses. The first is an approach of selecting from destinationaddresses registered in an address book of the apparatus, and the secondis an approach of inputting a destination address directly using akeyboard of an operation unit, or the like. Furthermore, the thirdapproach is an approach (hereinafter referred to as an auto-complete) ofcombining a selection from registered destination address data and aselection of direct input by presenting destination address informationof complementation candidates based on an input character sequence to auser when a destination address is directly input (Japanese PatentLaid-Open No. 2011-71660).

However, an approach of obtaining a destination address from an externaldevice via a network using Lightweight Directory Access Protocol(hereinafter referred to as LDAP) as a way of obtaining the destinationaddress is not mentioned in the prior art. There are cases in which areferral object, that introduces another server and is specific to theLDAP protocol, is processed in an approach of obtaining a destinationaddress using the LDAP protocol. A referral object is an object thatintroduces a different LDAP server. When a client connected to the LDAPserver receives a referral object from the LDAP server, it is necessaryto connect to the LDAP server introduced by the referral object in orderto further obtain a destination address. For this reason, there arecases where connections to a plurality of LDAP servers are needed for asingle destination address search, so in order to obtain a destinationaddress by connecting the plurality of LDAP servers, a large amount oftime is required to complete the obtaining of the destination addressand to complete the auto-complete. For this reason there is a problem inthat convenience is reduced. In particular, this problem is noticeablein a case where settings are such that an LDAP server is connected tousing the SSL protocol.

Also, while an approach of maintaining a connection to the server onceconnected to an LDAP server in order to shorten the time period requiredfor the auto-complete to finish has been proposed, there is thepossibility that a plurality of servers will be connected to due to areferral object being processed. Because there are restrictions to thenumber of LDAP servers to which a communication apparatus is able toconnect to at a time, it is difficult to maintain all of the connectionsto the connected LDAP servers, and so the above described problem is notresolved.

SUMMARY OF THE INVENTION

An aspect of the present invention is to eliminate the above-mentionedproblems with the conventional techniques.

A feature of the present invention is to provide a technique in which,even in a case where a destination address is obtained using an LDAPserver, a processing delay due to an auto-complete function can beprevented.

According to an aspect of the present invention, there is provided acommunication apparatus having an auto-complete function using an LDAPprotocol, the apparatus comprising: an input unit configured to inputcharacter information; a verifying unit configured to verify acertificate of an LDAP server; and an obtaining unit configured toobtain, by the LDAP protocol, address information including thecharacter information input by the input unit after the certificate ofthe LDAP server has been verified by the verifying unit.

Further features of the present invention will become apparent from thefollowing description of exemplary embodiments (with reference to theattached drawings).

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate embodiments of the invention and,together with the description, serve to explain the principles of theinvention.

FIG. 1 is a block diagram for explaining a hardware configuration of animage communication apparatus according to embodiments.

FIG. 2 is a view for illustrating an example configuration of acommunication system containing the image communication apparatusaccording to the embodiment.

FIG. 3 is a flowchart for describing processing executed by a CPU of theimage communication apparatus according to embodiments when a userinputs a destination address.

FIG. 4 is a view for illustrating an example of a scan screen accordingto embodiments.

FIG. 5 is a view for illustrating an example of an input screen for anew destination address according to embodiments.

FIG. 6 is a view for illustrating an example of an auto-complete settingscreen according to embodiments.

FIG. 7 is a view for showing an example of a screen where an addressbook displayed on an input and output unit in step S113 is displayed.

FIG. 8 is a flowchart for describing LDAP auto-complete processing instep S110 in FIG. 3.

FIG. 9 is a view for showing an example of a display screen fordisplaying a list of LDAP servers for which an SSL certificate could notbe verified.

FIG. 10 is a view for showing an example of a display screen fordisplaying a list of already obtained referral objects.

FIGS. 11A to 11C are flowcharts for describing LDAP destination addressobtaining processing in step S813 in FIG. 8.

DESCRIPTION OF THE EMBODIMENTS

Embodiments of the present invention will be described hereinafter indetail, with reference to the accompanying drawings. It is to beunderstood that the following embodiments are not intended to limit thescope of the claims of the present invention, and that not all of thecombinations of the aspects that are described according to thefollowing embodiments are necessarily required with respect to the meansto solve the problems according to the present invention.

First, an overview of processing in an image communication apparatusaccording to the embodiment is explained.

In an auto-complete function according to embodiments, with each userinput of character information indicating a destination address into theimage communication apparatus, complementation candidate destinationaddresses are obtained and the obtained destination addresses aredisplayed complementing the user input.

A flow for obtaining destination address information from an LDAP serveris explained hereinafter. A connection to an LDAP server is made usingan SSL or a TCP protocol, and a destination address search request istransmitted, to the LDAP server to which the connection is made, usingan LDAP protocol. In a case where the connection to the LDAP server ismade using the SSL protocol, verification of an SSL certificate of theLDAP server is performed, and the connection will be stopped if thevalidity of the LDAP server cannot be verified. After the destinationaddress search request is transmitted to the LDAP server, thedestination address is obtained from the LDAP server, and it isdetermined whether or not a referral object is included in the obtaineddestination address. A referral object is an object by which the LDAPserver that received the search request introduces a different LDAPserver. Therefore, in order to obtain the destination address for acomplementation candidate, a connection, to the LDAP server that theobtained referral object introduces, must be made using the SSL protocolor the TCP protocol, and a destination address search must be performed.By repeating the operation of referencing these kinds of referralobjects and connecting to different LDAP servers, the required number ofcomplementation candidates are obtained.

FIG. 1 is a block diagram for explaining a hardware configuration of animage communication apparatus 101 according to the embodiment.

The image communication apparatus 101 comprises a CPU 11, a RAM 12, astorage unit 13, an input and output unit 14, a reading unit 15 and acommunication unit 16, and these are connected to each other via a mainbus 18. The CPU 11 controls the image communication apparatus 101 inaccordance with programs stored in the storage unit 13 and loaded intothe RAM 12 upon execution. The RAM 12 provides a work area when the CPU11 executes processing. The storage unit 13 is a storage unit(hereinafter referred to as an HDD) such as a hard disk drive (an NVRAM)storing programs executed by the CPU 11, a variety of settings, andfiles, or the like. The input and output unit 14 is used in a case wherea user inputs a command, or where a message to a user is displayed, anda user performs variety of settings through a GUI (Graphical UserInterface). The input and output unit 14 may comprise a touch panelfunction. The reading unit 15 scans an original, such as a document,optically, and generates digital data of the original image. Thecommunication unit 16 controls communication with external devices via anetwork 102.

Note, in the image communication apparatus 101 according to theembodiments, while there is no particular limitation to this, the CPU 11controls the RAM 12, the HDD 13, the input and output unit 14, thereading unit 15, and the communication unit 16 via the main bus 18, andexecutes processing according to embodiments. In the HDD 13, a pluralityof destination address information items, relating to transmissiondestinations to which the image communication apparatus 101 is able totransmit image data, are stored, and these destination addressinformation items can be displayed by the input and output unit 14.Hereinafter, destination address information registered in the HDD 13 isreferred to as an address book.

FIG. 2 is a view for illustrating an example configuration of acommunication system containing the image communication apparatus 101according to the embodiment.

Here the image communication apparatus 101 is connected to an LDAPserver 202, an LDAP server 203 and an LDAP server 204 via the network102. The image communication apparatus 101 is able to connect to theLDAP server 202, the LDAP server 203, and the LDAP server 204 using theLDAP protocol. The image communication apparatus 101 is also connectedto a mail server 201 via the network 102, and can transmit image data toa mail address registered for the mail server 201.

FIG. 3 is a flowchart for describing processing executed by the CPU 11of the image communication apparatus 101 according to embodiments when auser inputs a destination address. Note that the processing shown bythis flowchart is realized by a program for executing the processingshown in this flowchart being installed in the HDD 13, the program beingloaded into the RAM 12, and the loaded program being executed by the CPU11.

The processing is initiated, for example, by an instruction to scan andtransmit an original being input into the input and output unit 14, andfirstly, the CPU 11 displays a scan screen, for example, as shown inFIG. 4, in the input and output unit 14 in step S102.

FIG. 4 is a view for illustrating an example of a scan screen accordingto embodiments.

In FIG. 4, a button 401 is a button making an instruction to select adestination address from an address book. A button 402 is a button formaking an instruction to input a destination address using, for example,a keyboard.

After displaying the scan screen, the processing proceeds to step S103where the CPU 11 determines whether or not the button 402 for newlyinputting a destination address is pressed. When it is determined thatthe button 402 is pressed, the processing proceeds to step S104, and theCPU 11 displays a new destination address input screen, as shown in FIG.5, in the input and output unit 14.

FIG. 5 is a view for illustrating an example of the new destinationaddress input screen according to embodiments.

A software keyboard is displayed in the input and output unit 14 asshown in FIG. 5, and a telephone number or a mail address, or the like,of a destination address can be input using numeric keys or alphabetcharacter keys of the software keyboard. A display area 502 is an areafor displaying an input character sequence and a destination address, orthe like, from an address book or an LDAP server that was searched. Afinalization key 503 is a key for confirming a destination address thatwas input or searched, and a cancel key 504 is a key for cancellinginput content. When an auto-complete key 505 is pressed, the processingtransitions to an auto-complete setting screen shown in FIG. 6.

Here, for example, when the auto-complete key 505 is pressed in the newdestination address screen of in FIG. 5, the processing transitions tothe screen shown in FIG. 6.

FIG. 6 is a view for illustrating an example of an auto-complete settingscreen according to embodiments.

In FIG. 6, pressing a button 602 is for configuring so thatauto-complete is not performed. A button 603 is for designation thatauto-complete be performed, and the button 603 is for configuring sothat auto-complete is performed based on a address book registered inHDD 13 . A button 604 is for designation that auto-complete beperformed, and the button 604 is for setting so that auto-complete beperformed with LDAP servers connected via the network 102. A button 605is for designating an LDAP server to use when auto-complete is performedwith the LDAP server connected via the network 102.

In step S105, the CPU 11 determines whether or not setting is such thatauto-complete is to be performed (the button 602 not being pressed), andthe processing proceeds to step S106 if setting is such thatauto-complete is performed, and otherwise the processing proceeds tostep S111. In step S106, the CPU 11 determines whether either of thebutton 603 or the button 604 in FIG. 6 is instructed. In a case where itis determined that setting is such that auto-complete is performed basedon an address book in step S106, the processing proceeds to step S107,and the CPU 11 determines whether a character sequence is input by thenumeric keys or the alphabet character keys in the screen in FIG. 5.Here if a character sequence is input, the processing proceeds to stepS108, and the CPU 11 searches for a destination address which isbegins-with matching with the input character sequence in the addressbook in the HDD 13, and displays a result of the search in the displayarea 502 in FIG. 5. Note, in a case where the CPU 11 determines that acharacter sequence is not input in step S107, the processing returns tostep S107 and the processing is continued. After the result of thesearch is displayed in the display area 502 in FIG. 5 in step S108, theprocessing proceeds to step S109, the CPU 11 determines whether or not afinalization key 503 is pressed, and the processing proceeds to stepS115 in a case where the finalization key 503 is pressed, and otherwisethe processing proceeds to step S107. In step S115, the CPU 11 generatesimage data for transmitting by scanning an original using the readingunit 15. Then the processing proceeds to step S116, the CPU 11 transmitsthe image data generated in step S115 to the address finalized in stepS109 using the communication unit 16.

On the other hand, in a case where the button 604 in FIG. 6 is pressedand setting is such that auto-complete is performed with LDAP servers instep S106, the processing proceeds to step S110, the CPU 11 executesLDAP auto-complete processing which is explained later, the processingproceeds to step S115, and the previously described processing isexecuted.

Also in a case where the CPU 11 determines that setting is such thatauto-complete is not performed in step S105, the processing proceeds tostep S111, and the CPU 11 determines whether or not an input of thedestination address is completed and the finalization key 503 in FIG. 5is pressed. Here in a case where it is determined that the finalizationkey 503 is pressed, the processing proceeds to step S115 and thepreviously described processing is executed by the CPU 11.

Also in a case where the CPU 11 determines that the button 402 for newlyinputting a destination address is not pressed in step S103, theprocessing proceeds to step S112 and the CPU 11 determines whethersearching for destination addresses from an address book is selected bythe button 401. In a case where it is determined that searching fordestination addresses from an address book is selected in step S112, theprocessing proceeds to step S113 where the CPU 11 displays the addressbook in the input and output unit 14, and the processing proceeds tostep S114. The CPU 11 determines whether or not a destination address isinstructed with the displayed address book in step S114, and theprocessing proceeds to step S115 in a case where a destination addressis instructed, and otherwise the processing returns to step S113.

FIG. 7 is a view for showing an example of a screen where an addressbook displayed on the input and output unit 14 in step S113 isdisplayed.

For example, in FIG. 7, when a destination address 703 is selected and adestination address finalization button 702 is pressed, selection of thedestination address is finalized as the destination address 703 in FIG.7. With this, the CPU 11 moves the processing from step S113 to stepS114.

As explained above, according to the flowchart in FIG. 3, when adestination address is newly input, it is possible to designateauto-complete and select whether auto-complete is performed with anaddress book stored on the image communication apparatus or whetherauto-complete is performed by the LDAP server via the network. Note,specifying a destination address by referencing an address book when notinputting a new destination address, and the operation of inputting anew destination address without using auto-complete are knowntechniques.

FIG. 8 is a flowchart for describing LDAP auto-complete processing instep S110 in FIG. 3.

Firstly, in step S802, the CPU 11 initializes the number of characters Ato be entered before destination addresses are obtained from LDAPservers. In this embodiment, explanation is given with the number ofcharacters A to be entered before destination addresses are obtainedfrom LDAP servers being “1” as an initial state, but other values may betaken. Next, the processing proceeds to step S803, and the CPU 11initializes the already input number of characters B. Here, explanationis given with the already input number of characters B being “0” as aninitial state, but other values may be taken. Next, the processingproceeds to step S804, and the CPU 11 initializes the number ofcharacters C input after search. Explanation is given with the number ofcharacters C input after search being “0” as an initial state, but othervalues may be taken. Next, the processing proceeds to step S805, and theCPU 11 initializes a list of LDAP servers, one example of which is shownin FIG. 9, for which an SSL certificate could not be verified.

FIG. 9 is a view for showing an example of a display screen fordisplaying a list of LDAP servers for which an SSL certificate could notbe verified.

Next, the processing proceeds to step S806, and the CPU 11 determineswhether or not a user of the image communication apparatus 101 input acharacter in the display area 502 in the screen in FIG. 5. In a casewhere no character is input, the processing returns to step S806, andthe processing is continued. In a case where the CPU 11 determines thata character is input in step S806, the processing proceeds to step S807,the CPU 11 increments the already input number of characters B, and thenumber of characters C input after search, if it is after a search.Firstly, when incrementing in step S807, the already input number ofcharacters B becomes “1”, because the already input number of charactersB is initialized to “0” in step S803. Next, the processing proceeds tostep S808, and the CPU 11 determines whether or not the already inputnumber of characters B is same as the number of characters A to beentered before destination addresses are obtained from LDAP servers. Inthis embodiment, the number of characters B matches the number ofcharacters A, because the already input number of characters B isincremented to “1” in step S807 and the number of characters A to beentered before destination addresses are obtained from the LDAP serveris initialized to “1” in step S802. If the number of characters B doesnot match the number of characters A, the processing returns to stepS806 and the processing continues, and the processing proceeds to stepS809 if the number of characters B matches the number of characters A.The CPU 11 initializes the number of characters C input after search to“0” in step S809.

Next the processing proceeds to step S810, the CPU 11 initializes a listof the already obtained referral objects shown in FIG. 10, andinitializes the number of referral objects D in step S811. After that,the processing proceeds to step S812, the CPU 11 initializes theobtained destination address list, the processing proceeds to step S813,and the CPU 11 performs the LDAP destination address obtainingprocessing. The LDAP destination address obtaining processing will beexplained later.

FIG. 10 is a view for showing an example of a display screen fordisplaying a list of already obtained referral objects.

Next the processing proceeds to step S814, the CPU 11 displays thedestination address list obtained in the processing in step S813 on thenew destination address input screen, to a user of the imagecommunication apparatus 101, and displays in the display area 502complementing input. Next the processing proceeds to step S815, the CPU11 determines whether or not the finalization key 503 or the cancel key504 is pressed on the screen displayed in step S814, and the completionof the auto-complete processing is instructed. In a case where thecompletion is instructed, the flow ends, but if completion is notinstructed, the processing returns to step S806, and the previouslydescribed processing is continued.

FIGS. 11A to 11C are flowcharts for describing the destination addressobtaining processing of an LDAP auto-complete in step S813 in FIG. 8.

First, the CPU 11, in step S1102, obtains LDAP server informationdesignated with the button 605 of FIG. 6, for example, the processingproceeds to step S1103, and the CPU 11 determines whether or notinformation of the LDAP server could be obtained. Here, when it isdetermined that information of the LDAP server could not be obtained,the flow ends, and in a case where it is determined that information ofthe LDAP server could be obtained, that LDAP server is set as the LDAPserver that obtains the destination addresses, and the processingproceeds to step S1104. In step S1104, the CPU 11 determines whether ornot setting is such that connection to that LDAP server is made usingthe Secure Socket Layer protocol (hereinafter referred to as the SSLprotocol). If setting is such that connection to that LDAP server ismade using the SSL protocol, the processing proceeds to step S1129, andin a case where setting is such that connection to that LDAP server isnot made using the SSL protocol, the processing proceeds to step S1105and the CPU 11 connects to the LDAP server obtained in step S1102 usingthe TCP protocol. After connecting to the LDAP server in this way, theprocessing proceeds to step S1106, the CPU 11 obtains the destinationaddress information by requesting of the LDAP server destinationaddresses that are begins-with matches with the character sequence inputon the new destination address input screen shown in FIG. 5. Then, theprocessing proceeds to step S1107, and the CPU 11 adds the destinationaddress information obtained in step S1106 to the already obtaineddestination address list. Then, the processing proceeds to step S1108,and the CPU 11 determines whether or not a referral object, thatintroduces going to search on a differing LDAP server defined in LDAP inthe destination address information obtained in step S1106, is included.Here, when it is determined that the referral object is included, theprocessing proceeds to step S1109, the CPU 11 adds the referral objectto the already obtained referral object list, and the processingproceeds to step S1110.

On the other hand, in a case where it is determined that a referralobject is not included in step S1108, the processing proceeds to stepS1110. In step S1110, the CPU 11 determines whether or not one or morereferral objects are registered in the list of already obtained referralobjects. In a case where one or more referral objects are notregistered, the processing proceeds to step S1111, and the CPU 11determines whether or not the number of referral objects is larger thanthe number set in advance. Here, when it is determined that the numberof referral objects is smaller than the number set in advance, theprocessing proceeds to step S1112, and the CPU 11 decrements the numberof characters A until destination addresses are obtained from the LDAPserver, and the processing completes. On the other hand, when it isdetermined that the number of referral objects is larger than the numberset in advance, the processing proceeds to step S1113, and incrementsthe number of characters A until destination addresses are obtained fromthe LDAP server, and the processing completes.

With this, when the number of referral objects introducing going tosearch on differing LDAP servers is less than the number set in advance,the number of characters in begins-with matching for which searching isperformed is reduced, and the number of times auto-complete is performedis increased. Conversely, when the number of referral objects is morethan the number set in advance, the number of characters in begins-withmatching for which searching is performed is increased, and the numberof times auto-complete is performed is reduced.

Also, in a case where the CPU 11 determines, in step S1110, that one ormore referral objects are registered, the processing proceeds to stepS1114, and the CPU 11 retrieves one referral object from the list ofalready obtained referral objects. Then, the CPU 11 sets that referralobject to be the LDAP server for obtaining the destination addresses.After this, the processing proceeds to step S1115, the CPU 11 incrementsthe number of referral objects D, the processing returns to step S1103,and the processing continues.

Also, in a case where the CPU 11, in step S1104, determines that settingis such that connection to that LDAP server is by the SSL protocol, theprocessing proceeds to step S1129. Even in a case where setting is suchthat connection is made using the SSL protocol for the LDAP server, theCPU 11, in step S1129, determines whether or not setting is such thatauto-complete is executed. When the CPU 11 determines, in step S1129,that setting is such that auto-complete is not executed, the processingproceeds to step S1110, and the processing continues. Meanwhile, in acase where the CPU 11, in step S1129, determines that setting is suchthat auto-complete is executed, the processing proceeds to step S1116,and the CPU 11 determines whether or not setting is such that an SSLcertificate is verified. In a case where it is determined that settingis such that an SSL certificate is not verified, the processing proceedsto step S1117, the CPU 11 connects to the LDAP server by the SSLprotocol, the processing proceeds to step S1106, and the previouslydescribed processing is executed.

On the other hand, in a case where setting is such that an SSLcertificate is verified in step S1116, the processing proceeds to stepS1118, and the CPU 11 determines whether or not the number of charactersB input into the auto-complete screen is two or more. In a case where itis determined that the number of characters B input into theauto-complete screen is not two characters or more, the processingproceeds to step S1119, and the CPU 11 performs verification of the SSLcertificate of the LDAP server. Then, the processing proceeds to stepS1120, and the CPU 11 determines whether or not a validity of the LDAPserver could be verified with the SSL certificate. There are variousdetermination criteria for whether or not the validity of the LDAPserver could be verified using the SSL certificate such as whether thecurrent time is within a validity time of the certificate, or whetherthe certificate is not defined in an expired list, and any kind ofdetermination criteria may be used in embodiments. In step S1120, in acase where the CPU 11 determines that the validity cannot be verified,the processing proceeds to step S1121, the LDAP server is added to alist of servers for which the SSL certificate could not be verified, andthe processing proceeds to step S1110.

Meanwhile, in a case where the validity could be verified in step S1120,the processing proceeds to step S1122, and the CPU 11 connects to theLDAP server using the SSL protocol. Then the processing proceeds to stepS1123, and the CPU 11 obtains destination addresses by making a requestto the LDAP server for the destination addresses that are begins-withmatches with the character sequence input on the auto-complete screen.Then, the processing proceeds to step S1124, the CPU 11 adds thedestination address obtained in step S1123 to the obtained destinationaddress list, and the processing proceeds to step S1125. In step S1125,the CPU 11 determines whether or not a referral object is included inthe destination address list obtained in step S1123, and in a case wherea referral object is not included, the processing proceeds to stepS1110, and the processing continues. Meanwhile, in a case where it isdetermined that a referral object is included in step S1125, theprocessing proceeds to step S1126, and the CPU 11 adds the includedreferral object to the already obtained object list, the processingproceeds to step S1110, and the processing continues.

Also, in a case where the CPU 11, in step S1118, determines that theinput number of character B is equal to or larger than two characters,the processing proceeds to step S1127, and the CPU 11 determines whetheror not that LDAP server is registered in the list of servers for whichvalidity could not be verified with the SSL certificate. In a case whereit is determined that the LDAP server is not registered, the processingproceeds to step S1122, and in a case where it is determined that theLDAP server is registered, the processing proceeds to step S1110, andthe processing continues.

As explained above, according to the present embodiment, in a case whereit is expected that communication will occur multiple times over a shortperiod such as with LDAP auto-complete, a deterioration in responsespeed can be prevented by configuring so as to not perform verificationof an SSL certificate for every communication.

Also, by registering a list of LDAP servers for which validity could notbe verified by SSL certificate verification, an LDAP auto-complete usingthose registered server can be prevented.

Also, LDAP server SSL certificate verification is skipped when the inputnumber of characters is greater than or equal to a predetermined number(for example, greater than or equal to two), but LDAP serververification with an SSL certificate is performed when the input numberof characters is less than the predetermined number (for example, lessthan two). Because of this, the time for LDAP auto-complete can beshortened.

Furthermore, when the number of referral objects that introduce a serverother than the obtaining target LDAP server is more than a predeterminednumber, the frequency of searching with LDAP auto-complete is reduced bychanging the number of characters for which to do a search. With this,the processing time in LDAP auto-complete becoming longer can beprevented.

Also, in a case where the number of LDAP servers to connect to withreferral objects is a number for which maintaining sessions is not aproblem, sessions with the plurality of LDAP servers are kept alive.Because of this, the processing time for LDAP auto-complete can beshortened.

Other Embodiments

Embodiments of the present invention can also be realized by a computerof a system or apparatus that reads out and executes computer executableinstructions recorded on a storage medium (e.g., non-transitorycomputer-readable storage medium) to perform the functions of one ormore of the above-described embodiment(s) of the present invention, andby a method performed by the computer of the system or apparatus by, forexample, reading out and executing the computer executable instructionsfrom the storage medium to perform the functions of one or more of theabove-described embodiment(s). The computer may comprise one or more ofa central processing unit (CPU), micro processing unit (MPU), or othercircuitry, and may include a network of separate computers or separatecomputer processors. The computer executable instructions may beprovided to the computer, for example, from a network or the storagemedium. The storage medium may include, for example, one or more of ahard disk, a random-access memory (RAM), a read only memory (ROM), astorage of distributed computing systems, an optical disk (such as acompact disc (CD), digital versatile disc (DVD), or Blu-ray Disc (BD)™),a flash memory device, a memory card, and the like.

While the present invention has been described with reference toexemplary embodiments, it is to be understood that the invention is notlimited to the disclosed exemplary embodiments. The scope of thefollowing claims is to be accorded the broadest interpretation so as toencompass all such modifications and equivalent structures andfunctions.

This application claims the benefit of Japanese Patent Application No.2013-206809, filed Oct. 1, 2013 and Japanese Patent Application No.2014-028964, filed Feb. 18, 2014, which are hereby incorporated byreference herein in their entirety.

1.-10. (canceled)
 11. An image processing apparatus which is able tocommunicate with an LDAP server, the image processing apparatuscomprising: an accepting unit configured to accept character informationfrom a user; a verifying unit configured to verify a certificate of theLDAP server; a requesting unit configured to request address informationincluding the character information accepted by the accepting unit tothe LDAP server whose certificate is verified by the verifying unit; areceiving unit configured to receive, from the LDAP server, addressinformation including the character information; a scanning unitconfigured to scan a document; and a sending unit configured to sendimage data of the document scanned by the scanning unit using theaddress information received by the receiving unit.
 12. The imageprocessing apparatus according to claim 11, wherein the verifying unitverifies a certificate of the LDAP server in accordance with theaccepting unit accepting the character information.
 13. The imageprocessing apparatus according to claim 12, wherein the requesting unitautomatically makes a request, in accordance with the accepting unitaccepting the character information, for the address informationincluding the character information accepted by the accepting unit tothe LDAP server.
 14. The image processing apparatus according to claim12, further comprising a determining unit configured to determinewhether the number of characters in the character information acceptedby the accepting unit reaches a predetermined number, wherein therequesting unit requests, if the determining unit determines that thenumber of characters in the character information accepted by theaccepting unit reaches the predetermined number, the address informationincluding the character information accepted by the accepting unit tothe LDAP server.
 15. The image processing apparatus according to claim11, wherein the receiving unit receives, from the LDAP server, aplurality of pieces of address information including the characterinformation, and wherein the image processing apparatus displays theplurality of pieces of address information received by the receivingunit.
 16. The image processing apparatus according to claim 11, whereinthe receiving unit receives, from the LDAP server, address informationstarted from the character information.
 17. An control method forcontrolling an image processing apparatus which is able to communicatewith an LDAP server, the control method comprising: accepting characterinformation from a user; verifying a certificate of the LDAP server;requesting address information including the accepted characterinformation to the LDAP server whose certificate is verified; receiving,from the LDAP server, address information including the characterinformation; scanning a document; and sending image data of the scanneddocument using the received address information.
 18. A non-transitorycomputer readable storage medium for storing a computer program forexecuting a control method of an image processing apparatus which isable to communicate with an LDAP server, the control method comprising:accepting character information from a user; verifying a certificate ofthe LDAP server; requesting address information including the acceptedcharacter information to the LDAP server whose certificate is verified;receiving, from the LDAP server, address information including thecharacter information; scanning a document; and sending image data ofthe scanned document using the received address information.